TMPM330FWFG Toshiba, TMPM330FWFG Datasheet - Page 62
TMPM330FWFG
Manufacturer Part Number
TMPM330FWFG
Description
Microcontrollers (MCU) MCU w/ ARM Cortex-M3 128K FLASH, 8K SRAM
Manufacturer
Toshiba
Specifications of TMPM330FWFG
Processor Series
TX03
Core
ARM Cortex M3
3rd Party Development Tools
MDK-ARM, RL-ARM, ULINK2
Product Summaries
Summary
Lead Free
Yes
Rohs Compatible Product(s)
Available
Rom (kbytes)
128K
Rom Type
Flash
Ram (kbytes)
8K
Number Of Pins
100
Package
LQFP(14×14)
Vcc
3V
Cpu Mhz
40
Ssp (ch) Spi
-
I2c/sio (ch)
3
Uart/sio (ch)
3
Usb
-
Can
-
Ethernet
-
External Bus Interface
-
Cs/wait Controller (ch)
-
Dma Controller
-
10-bit Da Converter
-
10-bit Ad Converter
12
12-bit Ad Converter
-
16-bit Timer / Counter
10
Motor / Igbt Control
-
Real Time Clock
1
Watchdog Timer
Y
Osc Freq Detect
-
Clock Gear
Y
Low-power Hold Function
-
Remote Control Interface
Y
Hardware Cec Controller
Y
Comparators
-
Low-voltage Detector
-
Etm Hardware Trace
4-bit
Lead Free Status / Rohs Status
Details
Available stocks
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Part Number
Manufacturer
Quantity
Price
7 Clock/Mode Control
Table 7-10 shows whether the warm-up setting of each mode transition is required or not.
7.6.7
counter is activated automatically. And then the system clock output is started after the elapse of
configured warm-up time. It is necessary to select the oscillator to be used for warm-up in the
OCCR0<WUPSEL> and to set the warm-up time in the OSCCR0<WUPT2:0> before executing the
instruction to enter the STOP/ SLEEP mode.
oscillator to stabilize if the low-speed clock is disabled. Enable the low-speed clock and then activate
the warm-up by software.
high-speed clock and then activate the warm-up.
(Note 1)
(Note 2)
(Note 3)
(Note)
Mode transition may require the warm-up so that the internal oscillator provides stable oscillation.
In the mode transition from STOP to NORMAL/ SLOW or from SLEEP to NORMAL, the warm-up
In the transition from NORMAL to SLOW/ SLEEP, the warm-up is required so that the internal
In the transition from SLOW to NORMAL when the high-speed clock is disabled, enable the
Warm-up
In STOP/ SLEEP modes, the PLL is disabled. When returning from these modes,
configure the warm-up time in consideration of the stability time of the PLL and the
internal oscillator. It takes approx. 200μs for the PLL to be stabilized.
If the low-speed clock is disabled, enable the low-speed clock and then activate
the warm-up by software.
If the high-speed clock is disabled, enable the high-speed clock and then
activate the warm-up by software.
Returning to NORMAL mode by reset does not induce the automatic warm-up.
Keep the reset signal valid until the oscillator operation becomes stable.
NORMAL→IDLE
NORMAL→SLEEP
NORMAL→SLOW
NORMAL→STOP
IDLE→NORMAL
SLEEP→NORMAL
SLEEP→SLOW
SLOW→NORMAL
SLOW→SLEEP
SLOW→STOP
STOP→NORMAL
STOP→SLOW
Mode transition
Table 7-10 Warm-up setting in mode transition
Under development
Page50
Auto-warm-up (Note 3)
Warm-up setting
Auto-warm-up
Auto-warm-up
Not required
Not required
Not required
Not required
Not required
Not required
(Note 1)
(Note 1)
(Note 2)
TMPM330
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